EP2486201B1 - Illuminated indoor floor assembly - Google Patents

Description

The invention relates to a lighted hall floor, a method for its production and its use, according to the preamble of claim 1 and claim 14. Such a hall floor shows the document WO 01/21909 ,

Sports halls are used for a variety of different sports. Examples include the classic ball games football, handball, volleyball and basketball. Increasingly, other sports such as badminton and squash are added. As a rule, sports halls are used by various groups and clubs. This brings an intensive use of different sports with it. Accordingly, a corresponding variety of lines and markings must be attached to the hall floor, since the sports mentioned have very different rules.

However, if many markings are placed on the floor of the playing field, this makes it difficult to orient the players on the pitch. In addition, rule violations can be more difficult to detect by the referee. In tournaments, the markings of other sports must also be removed or covered. These measures are expensive and expensive. One way to display markers temporarily are illuminated floor panels made of safety glass. However, the lighting devices mounted under the safety glass are in many cases difficult to achieve for maintenance and inspection work.

DE 39 25 742 A1 discloses a sports hall floor with a subfloor of screed and an elastic layer applied thereto. The elastic layer contains at least two polyolefin plates, which are glued to a nonwoven.

US 2008/0287221 A1 discloses a floor for a ball court. The floor contains a plurality of safety glasses which are vertically movable against each other and which are aligned on a support and spring construction. Lighting devices allow the illumination of lines and markings.

The object of the invention is to provide a lighted hall floor, which is provided with a variety of different colored bulbs and allows easy replacement and maintenance of the light and control electronics.

The object of the present invention is achieved by an illuminated hall floor, a process for its preparation and its use according to the independent claims 1, 14 and 15. Preferred embodiments will become apparent from the dependent claims.

The illuminated hall floor comprises at least one laminated glass bottom plate. The laminated glass bottom plate preferably contains safety glass. A polymer block and a light channel are arranged between the laminated glass bottom plate and a support.

The light channel preferably contains LEDs and the corresponding electrical connections. In addition to LEDs but other bulbs such as incandescent, energy-saving lamps or halogen lamps can be used. The light channel preferably contains differently colored LEDs, which can be controlled individually or jointly. In this way, moving light effects can be generated by targeted activation and deletion of individual LEDs. For the viewer, the light seems to spread in color waves. If several color waves overlap, further effects result, such as a color marbling (moiré effect). The light channel is routed along the lines of the playing field under the laminated glass bottom plate, allowing selective lighting of the playing field lines of the selected sport. The light channel can also be arranged flat and thus enable the display of symbols and advertising.

The polymer block preferably contains an elastic polymer which has a damping effect on the laminated glass bottom plate.

A Velcro fastener connects the polymer block to the laminated glass bottom plate. The Velcro fastener allows a simple, secure and preferably reversibly detachable attachment of the polymer block with the laminated glass plate.

The support is preferably formed as metal and / or polymer plate or frame. The overlay ensures a planar alignment of the laminated glass bottom plate and is supported by straps. The support may be in the form of a closed plate or a grid plate.

The carriers are preferably aligned flat on the hall foundation and the support.

In general, the illuminated hall floor is formed of a plurality of laminated glass bottom plates, so that the above-described construction of laminated glass floor panels, light channel, Polymer block, overlay and carrier repeated both in length and in width of the hall foundation.

The laminated glass bottom plate preferably includes a laminated glass pane and a joint. The joint connects the individual laminated glass bottom plates and seals the surface of the hall floor.

The laminated glass bottom plate preferably has a height of 4 mm to 20 mm, preferably 8 mm to 16 mm.

The laminated glass bottom plate preferably includes an anti-slip coating on top. The anti-slip coating can be made by etching the glass surface with an acid or base and / or printing on an enamel or ceramic paint. The enamel or ceramic color is preferably applied in dot or nub form.

The joint preferably contains putty, silicones, RTV (room temperature vulcanizing) silicone rubber, HTV (high temperature crosslinking) silicone rubber, peroxidic crosslinked silicone rubber, addition-cured silicone rubber, natural rubber, vulcanized rubber, polyisoprenes, styrene-butadiene rubber, butadiene-acrylonitrile rubber, polyurethanes , Polysulfides, polyepoxides and / or polyacrylates, and mixtures and / or copolymers thereof.

The connecting joint is preferably made of a liquid, curable silicone.

The joint preferably contains acrylate adhesives, methyl methacrylate adhesives, cyanoacrylate adhesives, polyepoxides, silicone adhesives and / or silane-crosslinking polymer adhesives, and also mixtures and / or copolymers.

The connecting joint preferably has a Shore A hardness of> 30, preferably> 40. A definition of the Shore hardness for elastomers can be found in DIN 53505 and DIN 7868. The Shore A hardness is preferably 30 to 90.

The light channel preferably contains a light source, particularly preferably an LED (Light Emitting Diode) and / or OLED (Organic Light Emitting Diode).

The light channel preferably contains a limiting profile of metal and / or polymer, preferably aluminum, polyethylene, polypropylene, polyurethane and / or mixtures and / or Copolymers. The boundary profile acts as an insert for the light source and seals the light source against dust and moisture.

The polymer block preferably has a height of 5 mm to 30 mm, particularly preferably 15 mm to 25 mm.

The polymer block preferably contains silicones, RTV silicone rubber, HTV silicone rubber, peroxidically crosslinked silicone rubber, addition-cured silicone rubber, natural rubber, vulcanized rubber, polyisoprenes, styrene-butadiene rubber, butadiene-acrylonitrile rubber and / or polyacrylates, and mixtures and / or copolymers from that.

The polymer block preferably contains a flat aluminum frame on the upper side and / or lower side. The flat aluminum frame preferably closes flush with the polymer pad. The flat aluminum frame is preferably located on the top between the hook and loop fastener and the polymer block and / or on the underside between the polymer block and the support. The flat aluminum frame is preferably arranged as described above under a connecting joint. The purpose of the flat aluminum frame is to jointly push down two adjacent glass panes on one-sided loading.

The pad preferably contains a flat aluminum frame on the top and / or bottom. The flat aluminum frame is preferably arranged as described above under a connecting joint.

The overlay preferably contains aluminum, iron, titanium, tungsten, chromium, molybdenum and / or alloys thereof.

The overlay preferably contains polymers, carbon fibers, carbon fiber reinforced polymers and / or mixtures or copolymers.

The support preferably has a height of 5 mm to 20 mm, preferably 7 mm to 15 mm.

The carriers preferably contain spring elements and / or spring bearings.

The carriers are preferably height adjustable. The beams can compensate for unevenness in the hall foundation and be adapted to different hall floor heights.

The invention further includes a method for producing a lighted hall floor. In a first step, at least one, usually several carriers are placed on the ground foundation. Subsequently, a support is placed and fastened on the carrier. In the case of multiple carriers, multiple runs can be used. These are preferably attached to each other.

In the next step, a polymer block is attached to the support. The attachment can be done with the help of a suitable adhesive or mechanically via a screw, nail, clips and / or dowels. In the following step, the two related parts of a hook and loop fastener on the polymer block and a laminated glass bottom plate are attached. The term "parts of a hook and loop fastener belonging to one another" is understood to mean, on the one hand, the loops, fabrics or strips and, on the other hand, the hooks of a hook-and-loop fastener. The hooks can be attached to both the laminated glass bottom plate and the polymer block.

In a further step, a light channel is mounted on the support and provided with electrical connections.

In the final step, the laminated glass bottom plate is attached to the polymer block via the Velcro fastener.

The invention further includes the use of the illuminated hall floor as a sports field, sports hall, gym, particularly preferably as a handball field, volleyball court, hockey field, football field and / or basketball court.

In the following the invention will be explained in more detail with reference to drawings. The drawings are purely schematic representations and not to scale. They do not limit the invention in any way.

• Figur 1 einen Querschnitt des erfindungsgemäßen beleuchteten Hallenfußbodens (I),
• Figur 2 einen Querschnitt einer bevorzugten Ausführungsform einer Verbundglasbodenplatte (1),
• Figur 3 ein Flussdiagramm des erfindungsgemäßen Verfahrens zur Herstellung eines beleuchteten Hallenfußbodens (I) und
• Figur 4 einen Querschnitt einer bevorzugten Ausführungsform des erfindungsgemäßen Polymerpads (3).

Show it:

• FIG. 1 a cross section of the illuminated hall floor (I) according to the invention,
• FIG. 2 a cross section of a preferred embodiment of a laminated glass bottom plate (1),
• FIG. 3 a flowchart of the inventive method for producing a lighted hall floor (I) and
• FIG. 4 a cross-section of a preferred embodiment of the polymer pad (3) according to the invention.

FIG. 1 shows a cross section of the illuminated hall floor according to the invention (I). In FIG. 1 only one laminated glass bottom plate (1) is shown. The hall floor (I) is preferably formed by a plurality of laminated glass bottom plates (1), so that the in FIG. 1 shown structure repeated. The laminated glass bottom plate (1) is connected via a hook and loop fastener (8) with a polymer block (3). The polymer block (3) is mounted on a support (4). Between the support (4) and the laminated glass bottom plate (1), a light channel (2) is mounted with electrical connections, not shown. Preferably, a control device is disposed between the electrical connection cable and the power source. This control device allows the targeted illumination of individual LEDs. The arrangement of different colored LEDs on the LED circuit board can produce colored lighting effects. The support (4) is supported by a support (5). The carrier (5) is preferably adjustable in height, so that small bumps on the hall foundation (6) can be compensated.

FIG. 2 shows a cross section of a preferred embodiment of a laminated glass bottom plate (1). The laminated glass bottom plate (1) preferably contains a laminated glass pane (1a), a joint (1b) and an anti-slip coating (7). Via the joint (1b) several laminated glass bottom plates can be connected.

FIG. 3 shows a flow chart of the inventive method for producing a lighted hall floor (I). In a first step, at least one, usually several carriers (5) are placed on the ground foundation. The carrier (5) are preferably height-adjustable and provided with spring bearings. With these spring bearings mechanical stresses acting on the laminated glass bottom plate (1) can be additionally damped. Subsequently, a support (4) is placed on the support (5) and fastened with screws. The supports (4) are preferably formed from aluminum grid plates. In the next step, a polymer block (3) is attached to the support (4). The attachment can be done using a suitable adhesive or mechanically via a screw, nail and / or dowels. In the following step, the two parts belonging to each other of a hook and loop fastener (8) on the polymer block (3) and a laminated glass bottom plate (1) attached. In a further step, a light channel (2) is mounted on the support (4) and provided with electrical connections. Preferably, a control device, not shown, is arranged between the electrical connection cable and the power source. This control device allows the targeted illumination of individual LEDs. In the final step, the laminated glass bottom plate (1) on the polymer block (3) via the Velcro fastener (8) is attached. In general, the illuminated hall floor (I) is formed of a plurality of laminated glass bottom plates, so that the described structure is repeated both in the length and in the width of the hall foundation (6). The laminated glass bottom plates (1) are then as in FIG. 2 described connected. To increase the stability, it is also possible to connect the individual supports (4) or to use a support (4) for a plurality of laminated glass bottom plates (1).

FIG. 4 shows a cross section of a preferred embodiment of the polymer pad of the hall floor according to the invention. The polymer pad (3) is arranged below the connecting joint (1b) centrally between two laminated glass bottom plates (1). Between the Velcro fastener (8) on a respective composite glass bottom plate (1) and the polymer pad (3), a connecting flat aluminum frame (9) is arranged. The flat aluminum frame (9) has the task of jointly pressing two adjacent glass panes at one-sided load down. The flat aluminum frame is preferably also, as not shown, arranged between the polymer pad (3) and the support (4) and / or the support (4) and the support (5).

LIST OF REFERENCE NUMBERS

(1)

Verbundglasbodenplatte,

(1a)

Verbundglasscheibe,

(1b)

Verbindungsfuge,

(2)

Lichtkanal,

(3)

Polymerblock,

(4)

Auflage,

(5)

Träger,

(6)

Hallenfundament,

(7)

Anti-Rutsch Beschichtung,

(8)

Klettverschluss

(9)

Flachaluminiumrahmen und

(I)

erfindungsgemäßer Hallenfußboden.

Show it:

(1)

Laminated glass base plate,

(1a)

Laminated glass pane,

(1b)

connecting joint,

(2)

Light channel,

(3)

Polymer block

(4)

pad,

(5)

Carrier,

(6)

Hall foundation

(7)

Non-slip coating,

(8th)

velcro fastener

(9)

Flat aluminum frame and

(I)

inventive hall floor.

Claims (15)

1. Illuminated arena floor comprising at least

   a. a composite glass floor panel (1),

   b. an overlay (4),

   c. a polymer block (3) and a light channel (2) next to each other between the composite glass floor panel (1) and the overlay (4),

   d. a support (5) between the overlay (4) and the foundation of the arena (6),

   characterized in that a hook and loop fastener (8) is provided between the polymer block (3) and the composite glass floor panel (1), and that the light channel (2) enables a selective illumination of playing field lines.
2. Arena floor according to claim 1, wherein the composite glass floor panel (1) includes a composite glass pane (1 a) and a connection joint (1 b).
3. Arena floor according to claim 1 or 2, wherein the composite glass floor panel (1) has a height from 4 mm to 20 mm, preferably 8 mm to 16 mm.
4. Arena floor according to one of claims 1 through 3, wherein the composite glass floor panel (1) includes an anti-slip coating (7) on the top.
5. Arena floor according to one of claims 1 through 4, wherein the connection joint (1 b) has a Shore-A hardness of > 30, preferably > 40.
6. Arena floor according to one of claims 1 through 5, wherein the light channel (2) includes a light source (2b), preferably an LED and/or OLED.
7. Arena floor according to one of claims 1 through 6, wherein the polymer block (3) has a height from 5 mm to 30 mm, preferably 15 mm to 25 mm.
8. Arena floor according to one of claims 1 through 7, wherein the polymer block (3) and/or the overlay (4) have a flat aluminum frame (9) on the top and/or bottom.
9. Arena floor according to one of claims 1 through 8, wherein the overlay (4) contains metal, preferably aluminum, iron, titanium, tungsten, chromium, molybdenum, and/or alloys thereof or polymer and, preferably polymers, carbon fibers, carbon fiber reinforced polymers, and/or mixtures or copolymers.
10. Arena floor according to one of claims 1 through 9, wherein the overlay (4) has a height from 5 mm to 20 mm, preferably 7 mm to 15 mm.
11. Arena floor according to one of claims 1 through 10, wherein the supports (5) include spring elements and/or spring supports.
12. Arena floor according to one of claims 1 through 11, wherein the supports (5) have a height from 70 mm to 250 mm, preferably 100 mm to 200 mm.
13. Arena floor according to one of claims 1 through 12, wherein the supports (5) are height adjustable.
14. Method for producing an illuminated arena floor according to one of claims 1 through 13, wherein,

    a. a support (5) is positioned on a floor foundation (6),

    b. an overlay (4) is placed and attached on the support (5),

    c. a polymer block (3) is attached on the overlay (4),

    d. a light channel (2) is attached on the overlay (4), and

    e. the light channel (2) is provided with electrical connections,

    characterized in that g. a hook and loop fastener (8) is attached on the polymer block (3) and a composite glass floor panel (1), and g. the composite glass floor panel (1) is attached on the polymer block (3) with the hook and loop fastener (8).
15. Use of the illuminated arena floor according to one of claims 1 through 13 as a sports field, sports arena, gymnasium, preferably as a handball court, volleyball court, hockey field, soccer field, and/or basketball court.

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